N. Karimian, L. M. Moretto, and P. Ugo, Nanobiosensing with arrays and ensembles of nanoelectrodes, vol.17, 2017.

G. A. Lopez, M. Estevez, M. Solera, and L. M. Lechuga, Recent advances in nanoplasmonic biosensors: Applications and lab, vol.6, pp.123-136, 2017.

J. Kim, R. Kumar, A. J. Bandodkar, and J. Wang, Advanced materials for printed wearable electrochemical devices: A review, Adv. Electron. Mater, vol.3, pp.1-15, 2017.

C. Chen, X. Zhao, Z. Li, Z. Zhu, S. Qian et al., Current and emerging technology for continuous glucose monitoring, vol.17, 2017.

A. Othman, A. Karimi, and S. Andreescu, Functional nanostructures for enzyme based biosensors: Properties, fabrication and applications, J. Mater. Chem. B, vol.4, pp.7178-7203, 2016.

Y. Zhang and Q. Wei, The role of nanomaterials in electroanalytical biosensors: A mini review, J. Electroanal. Chem, vol.781, pp.401-409, 2016.

F. Arduini, L. Micheli, D. Moscone, G. Palleschi, S. Piermarini et al., Electrochemical biosensors based on nanomodified screen-printed electrodes: Recent applications in clinical analysis, Trends Anal. Chem, vol.79, pp.114-126, 2016.

A. Walcarius, S. D. Minteer, J. Wang, Y. Lin, and A. Merkoçi, Nanomaterials for bio-functionalized electrodes: Recent trends, J. Mater. Chem. B, vol.1, pp.1887-1911, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01505219

M. Holzinger, A. Le-goff, and S. Cosnier, Nanomaterials for biosensing applications: A review, Front. Chem, vol.2, pp.1-10, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01652265

B. Sun, Y. Z. Long, H. D. Zhang, M. M. Li, J. L. Duvail et al., Advances in three-dimensional nanofibrous macrostructures via electrospinning, Prog. Polym. Sci, vol.39, pp.862-890, 2014.

S. Agarwal, A. Greiner, and J. H. Wendorff, Functional materials by electrospinning of polymers, Prog. Polym. Sci, vol.38, pp.963-991, 2013.

R. Stepanyan, A. Subbotin, L. Cuperus, P. Boonen, M. Dorschu et al., Fiber diameter control in electrospinning, Appl. Phys. Lett, p.173105, 2014.

J. Pelipenko, P. Kocbek, and J. Kristl, Critical attributes of nanofibers: Preparation, drug loading, and tissue regeneration, Int. J. Pharm, vol.484, pp.57-74, 2015.

R. Sahay, P. S. Kumar, R. Sridhar, J. Sundaramurthy, J. Venugopal et al., Electrospun composite nanofibers and their multifaceted applications, J. Mater. Chem, vol.22, pp.12953-12971, 2012.

J. Quirós, K. Boltes, and R. Rosal, Bioactive applications for electrospun fibers, Polym. Rev, vol.56, pp.631-667, 2016.

A. Khalf and S. V. Madihally, Recent advances in multiaxial electrospinning for drug delivery, Eur. J. Pharm. Biopharm, vol.112, pp.1-17, 2017.

S. Khorshidi, A. Solouk, H. Mirzadeh, S. Mazinani, J. M. Lagaron et al., A review of key challenges of electrospun scaffolds for tissue-engineering applications, J. Tissue Eng. Regen. Med, vol.10, pp.715-738, 2016.

S. S. Ray, S. Chen, C. Li, N. C. Nguyenac, and H. T. Nguyenac, A comprehensive review: Electrospinning technique for fabrication and surface modification of membranes for water treatment application, RSC Adv, vol.6, pp.85495-85514, 2016.

X. Lu, C. Wang, F. Favier, and N. Pinna, Electrospun nanomaterials for supercapacitor electrodes: Designed architectures and electrochemical performance, Adv. Energy Mater, vol.7, pp.1-43, 2017.

G. Sun, L. Sun, H. Xie, and J. Liu, Electrospinning of nanofibers for energy applications, Nanomaterials, vol.6, 2016.

A. Luzio, E. V. Canesi, C. Bertarelli, and M. Caironi, Electrospun polymer fibers for electronic applications, Materials, vol.7, pp.906-947, 2014.

E. M. Reyes-gallardo, R. Lucena, and S. Cardenas, Electrospun nanofibers as sorptive phases in microextraction, Trends Anal. Chem, vol.84, pp.3-11, 2016.

A. Moheman, M. S. Alam, and A. Mohammad, Recent trends in electrospinning of polymer nanofibers and their applications in ultra thin layer chromatography, Adv. Colloid Interface Sci, vol.229, pp.1-24, 2016.

L. Matlock-colangelo, D. Cho, C. L. Pitner, M. W. Frey, and A. J. Baeumner, Functionalized electrospun nanofibers as bioseparators in microfluidic systems, Lab Chip, vol.12, pp.1696-1701, 2012.

L. Matlock-colangelo, B. Coon, C. L. Pitner, M. W. Frey, and A. J. Baeumner, Functionalized electrospun poly(vinyl alcohol) nanofibers for on-chip concentration of E. coli cells, Anal. Bioanal. Chem, vol.408, pp.1327-1334, 2016.

L. Matlock-colangelo, N. W. Colangelo, C. Fenzl, M. W. Frey, and A. J. Baeumner, Passive Mixing Capabilities of Micro-and Nanofibres When Used in Microfluidic Systems, Sensors, vol.16, 1238.

B. Ding, M. Wang, X. Wang, J. Yu, and G. Sun, Electrospun nanomaterials for ultrasensitive sensors, Mater. Today, vol.13, pp.16-27, 2010.

Z. Su, J. Ding, and G. Wei, Electrospinning: A facile technique for fabricating polymeric nanofibers doped with carbon nanotubes and metallic nanoparticles for sensor applications, vol.4, pp.52598-52610, 2014.

K. Mondal and A. Sharma, Recent advances in electrospun metal-oxide nanofiber based interfaces for electrochemical biosensing, RSC Adv, vol.6, pp.94595-94616, 2016.

M. Zhang, X. Zhao, G. Zhang, G. Wei, and Z. Su, Electrospinning design of functional nanostructures for biosensor applications, J. Mater. Chem. B, vol.5, pp.1699-1711, 2017.

L. Matlock-colangelo and A. J. Baeumner, Biologically Inspired Nanofibers for Use in Translational Bioanalytical Systems, Annu. Rev. Anal. Chem, vol.7, pp.23-42, 2014.

A. Senthamizhan, B. Balusamy, and T. Uyar, Glucose sensors based on electrospun nanofibers: A review, Anal. Bioanal. Chem, vol.408, pp.1285-1306, 2016.

N. E. Zander, Hierarchically Structured Electrospun Fibers. Polymers, vol.5, pp.19-44, 2013.

C. Zhang and S. Yu, Nanoparticles meet electrospinning: Recent advances and future prospects, Chem. Soc. Rev, vol.43, pp.4423-4448, 2014.

M. Ahmad, C. Pan, Z. Luo, and J. Zhu, A single ZnO nanofiber-based highly sensitive amperometric glucose biosensor, J. Phys. Chem. C, vol.114, pp.9308-9313, 2010.

H. Tang, F. Yan, Q. Tai, and H. L. Chan, The improvement of glucose bioelectrocatalytic properties of platinum electrodes modified with electrospun TiO 2 nanofibers, Biosens. Bioelectron, vol.25, pp.1646-1651, 2010.

K. Mondal, M. A. Ali, V. V. Agrawal, B. D. Malhotra, and A. Sharma, Highly Sensitive biofunctionalized mesoporous electrospun TiO 2 nanofiber based interface for biosensing, ACS Appl. Mater. Interfaces, vol.6, pp.2516-2527, 2014.

S. Huang, Y. Ding, Y. X. Liu, L. Su, R. Filosa et al., Glucose biosensor using glucose oxidase and electrospun Mn 2 O 3 -Ag nanofibers, Electroanalysis, vol.23, 1912.

X. Mao, W. Tian, T. A. Hatton, and G. C. Rutledge, Advances in electrospun carbon fiber based electrochemical sensing platforms for bioanalytical applications, Anal. Bioanal. Chem, vol.408, pp.1307-1326, 2016.

M. Inagaki, Y. Yang, and F. Kang, Carbon Nanofibers Prepared via Electrospinning, Adv. Mater, vol.24, pp.2547-2566, 2012.

L. Zhang, A. Aboagye, A. Kelkar, C. Lai, and H. Fong, A review: Carbon nanofibers from electrospun polyacrylonitrile and their applications, J. Mater. Sci, vol.49, pp.463-480, 2014.

J. Fu, H. Qiao, D. Li, L. Luo, K. Chen et al., Laccase biosensor based on electrospun copper/carbon composite nanofibers for catechol detection, Sensors, vol.14, pp.3543-3556, 2014.

D. Li, L. Luo, Z. Pang, L. Ding, Q. Wang et al., Novel phenolic biosensor based on a magnetic polydopamine-laccase-nickel nanoparticle loaded carbon nanofiber composite, ACS Appl. Mater. Interfaces, vol.6, pp.5144-5151, 2014.

X. Zhang, D. Liu, L. Li, and T. You, Direct electrochemistry of glucose oxidase on novel freestanding nitrogen-doped carbon nanospheres@carbon nanofibers composite film, Sci. Rep, vol.5, pp.1-11, 2015.

T. Bae, E. Shin, J. S. Im, J. G. Kim, and Y. Lee, Effects of carbon structure orientation on the performance of glucose sensors fabricated from electrospun carbon fibers, J. Non-Cryst. Solids, vol.358, pp.544-549, 2012.

K. Cui, Y. Song, Q. Guo, F. Xu, Y. Zhang et al., Architecture of electrospun carbon nanofibers-hydroxyapatite composite and its application act as a platform in biosensing, Sens. Actuators. B Chem, vol.160, pp.435-440, 2011.

L. Wang, Y. Ye, H. Zhu, Y. Song, S. He et al., Controllable growth of Prussian blue nanostructures on carboxylic group functionalized carbon nanofibers and its application for glucose biosensing, Nanotechnology, vol.23, pp.1-10, 2012.

K. M. Manesh, H. T. Kim, P. Santhosh, A. I. Gopalan, and K. Lee, A novel glucose biosensor based on immobilization of glucose oxidase into multiwall carbon nanotubes-polyelectrolyte-loaded electrospun nanofibrous membrane, Biosens. Bioelectron, vol.23, pp.771-779, 2008.

Z. G. Wang, Y. Wang, H. Xu, G. Li, and Z. K. Xu, Carbon nanotube-filled nanofibrous membranes electrospun from poly(acrylonitrile-co-acrylic acid) for glucose biosensor, J. Phys. Chem. C, vol.113, pp.2955-2960, 2009.

A. Numnuam, P. Thavarungkul, and P. Kanatharana, An amperometric uric acid biosensor based on chitosan-carbon nanotubes electrospun nanofiber on silver nanoparticles, Anal. Bioanal. Chem, vol.406, pp.3763-3772, 2014.

M. Bourourou, M. Holzinger, F. Bossard, F. Hugenell, A. Maaref et al., Chemically reduced electrospun polyacrilonitrile-carbon nanotube nanofibers hydrogels as electrode material for bioelectrochemical applications, Carbon, vol.87, pp.233-238, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01650925

A. Devadoss, H. Han, T. Song, Y. Kim, and U. Paik, Gold nanoparticle-composite nanofibers for enzymatic electrochemical sensing of hydrogen peroxide, Analyst, vol.138, pp.5025-5030, 2013.

H. Zhu, M. L. Du, M. Zhang, P. Wang, S. Y. Bao et al., Facile fabrication of AgNPs/(PVA/PEI) nanofibers: High electrochemical efficiency and durability for biosensors, Biosens. Bioelectron, vol.49, pp.210-215, 2013.

P. Wang, M. Zhang, Y. Cai, S. Cai, M. Du et al., Facile fabrication of palladium nanoparticles immobilized on the water-stable polyvinyl alcohol/polyehyleneimine nanofibers via In-Situ reduction and their high electrochemical activity, Soft Mater, vol.12, pp.387-395, 2014.

V. Jose, S. Marx, H. Murata, R. R. Koepsel, and A. J. Russell, Direct electron transfer in a mediator-free glucose oxidase-based carbon nanotube-coated biosensor, Carbon, vol.50, pp.4010-4020, 2012.

J. Gladisch, D. Sarauli, D. Schäfer, B. Dietzel, B. Schulz et al., Towards a novel bioelectrocatalytic platform based on "wiring" of pyrroloquinoline quinonedependent glucose dehydrogenase with an electrospun conductive polymeric fiber architecture, Sci. Rep, vol.6, pp.1-10, 2016.

J. Fu, Z. Pang, J. Yang, F. Huang, Y. Cai et al., Fabrication of polyaniline/carboxymethyl cellulose/cellulosenanofibrous mats and their biosensing application, App. Surf. Sci, vol.349, pp.35-42, 2015.

G. Yang, K. L. Kampstra, and M. R. Abidian, High-performance conducting polymer nanofiber biosensors for detection of biomolecules, Adv. Mater, vol.26, pp.4954-4960, 2014.

S. D. Uzun, F. Kayaci, T. Uyar, S. Timur, and L. Toppare, Bioactive surface design based on functional composite electrospun nanofibers for biomolecule immobilization and biosensor applications, ACS Appl. Mater. Interfaces, vol.6, pp.5235-5243, 2014.

P. Ekabutr, O. Chailapakul, and P. Supaphol, Modification of disposable screen-printed carbon electrode surfaces with conductive electrospun nanofibers for biosensor applications, J. Appl. Polym. Sci, pp.3885-3893, 2013.

C. Zhou, Y. Shi, X. Ding, M. Li, J. Luo et al., Development of a fast and sensitive glucose biosensor using iridium complex-doped electrospun optical fibrous membrane, Anal. Chem, vol.85, pp.1171-1176, 2013.

K. B. Paul, S. Kuma, S. Tripathy, S. R. Vanjari, V. Singh et al., A highly sensitive self-assembled monolayer modified copper doped zinc oxide nanofiber interface for detection of Plasmodium falciparum histidine-rich protein-2: Targeted towards rapid, early diagnosis of malaria, Biosens. Bioelectron, vol.80, pp.39-46, 2016.

M. A. Ali, K. Mondal, C. Singh, B. D. Malhotra, and A. Sharma, Anti-epidermal growth factor receptor conjugated mesoporous zinc oxide nanofibers for breast cancer diagnostics, Nanoscale, vol.7, pp.7234-7245, 2015.

B. Paul, V. Singh, S. R. Vanjari, and S. G. Singh, One step biofunctionalized electrospun multiwalled carbon nanotubes embedded zinc oxide nanowire interface for highly sensitive detection of carcinoma antigen-125

K. Biosens and . Bioelectron, , vol.88, pp.144-152, 2017.

N. Zhang, Y. Deng, Q. Tai, B. Cheng, L. Zhao et al., Electrospun TiO 2 nanofiber-based cell capture assay for detecting circulating tumor cells from colorectal and gastric cancer patients, Adv. Mater, vol.24, pp.2756-2760, 2012.

Q. Li, D. Liu, L. Xu, R. Xing, W. Liu et al., Wire-in-tube IrOx architectures: Alternative label-Free immunosensor for amperometric immunoassay toward ?-Fetoprotein, ACS Appl. Mater. Interfaces, vol.7, pp.22719-22726, 2015.

K. Mondal, M. A. Ali, S. Srivastava, B. D. Malhotra, and A. Sharma, Electrospun functional micro/nanochannels embedded in porous carbon electrodes for microfluidic biosensing, Sens. Actuators B Chem, vol.229, pp.82-91, 2016.

P. K. Gupta, A. Gupta, S. R. Dhakate, Z. H. Khan, and P. R. Solanki, Functionalized polyacrylonitrile-nanofiber based immunosensor for Vibrio cholerae detection, J. Appl. Polym. Sci, vol.44170, pp.1-9, 2016.

P. Netsuwan, H. Mimiya, A. Baba, S. Sriwichai, K. Shinbo et al., Long-range surface plasmon resonance immunosensor based on water-stable electrospun poly(acrylic acid) fibers, Sens. Actuators B Chem, vol.204, pp.770-776, 2014.

M. Sun, B. Ding, J. Lin, J. Yu, and G. Sun, Three-dimensional sensing membrane functionalized quartz crystal microbalance biosensor for chloramphenicol detection in real time, Sens. Actuators B Chem, vol.160, pp.1887-1914, 2011.

S. Tripathy, S. R. Vanjari, V. Singh, S. Swaminathan, and S. G. Singh, Electrospun manganese (III) oxide nanofiber based electrochemical DNA nanobiosensor for zeptomolar detection of dengue consensus primer, Biosens. Bioelectron, vol.90, pp.378-387, 2017.

Z. Guler, P. Erkoc, and A. S. Sarac, Electrochemical impedance spectroscopic study of single-stranded DNA-immobilized electroactive polypyrrole-coated electrospun poly(?-caprolactone) nanofibers

. Mater, , vol.5, pp.269-279, 2015.

X. Wang, X. Wang, X. Wang, F. Chen, K. Zhu et al., Novel electrochemical biosensor based on functional composite nanofibers for sensitive detection of p53 tumor suppressor gene, Anal. Chim. Acta, vol.765, pp.63-69, 2013.

S. G. Kim, J. S. Lee, J. Jun, D. H. Shin, and J. Jang, Ultrasensitive bisphenol A Field-Effect Transistor sensor using an aptamer-modified multichannel carbon nanofiber transducer, ACS Appl. Mater. Interfaces, vol.8, pp.6602-6610, 2016.

J. Jun, J. S. Lee, D. H. Shin, and J. Jang, Aptamer-functionalized hybrid carbon nanofiber FET-type electrode for a highly sensitive and selective platelet-derived growth factor biosensor, ACS Appl. Mater. Interfaces, vol.6, pp.3859-13865, 2014.

Z. Wang, L. Wan, Z. Liu, X. Huang, and Z. Xu, Enzyme immobilization on electrospun polymer nanofibers: An overview, J. Mol. Catal. B, vol.56, pp.189-195, 2009.

C. Tang, C. D. Saquing, S. W. Morton, B. N. Glatz, R. M. Kelly et al., Cross-linked polymer nanofibers for hyperthermophilic enzyme immobilization: Approaches to improve enzyme performance, ACS Appl. Mater. Interfaces, vol.6, pp.11899-11906, 2014.

G. Ren, X. Xu, Q. Liu, J. Cheng, X. Yuan et al., Electrospun poly(vinyl alcohol)/glucose oxidase biocomposite membranes for biosensor applications, React. Funct. Polym, vol.66, pp.1559-1564, 2006.

D. A. Oriero, I. O. Gyan, B. W. Bolshaw, I. F. Cheng, and D. E. Aston, Electrospun biocatalytic hybrid silica-PVA-tyrosinase fiber mats for electrochemical detection of phenols, Microchem. J, vol.118, pp.166-175, 2015.

X. Su, J. Ren, X. Meng, X. Ren, and F. Tang, A novel platform for enhanced biosensing based on the synergy effects of electrospun polymer nanofibers and graphene oxides, Analyst, vol.138, pp.1459-1466, 2013.

C. M. Wu, S. A. Yu, and S. L. Lin, Graphene modified electrospun poly(vinyl alcohol) nanofibrous membranes for glucose oxidase immobilization, Express Polym. Lett, vol.8, pp.565-573, 2014.

E. Sapountzi, M. Braiek, C. Farre, M. Arab, J. Chateaux et al., One-step fabrication of electrospun cross-linkable polymer nanofibers incorporating multiwall carbon nanotubes and enzyme for biosensing, J. Electrochem. Soc, vol.162, pp.275-281, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01229524

E. Sapountzi, M. Braiek, F. Vocanson, J. Chateaux, N. Jaffrezic-renault et al., Gold nanoparticles assembly on electrospun poly(vinyl alcohol)/poly(ethyleneimine)/glucose oxidase nanofibers for ultrasensitive electrochemical glucose biosensing, Sens. Actuators B Chem, vol.238, pp.392-401, 2017.

G. Luo, K. S. Teh, Y. Liu, X. Zang, Z. Wen et al., Direct-write, self-aligned electrospinning on paper for controllable fabrication of three-dimensional structures, ACS Appl. Mater. Interfaces, vol.7, pp.27765-27770, 2015.

X. Ji, Z. Su, P. Wang, G. Ma, and S. Zhang, Ready-to-use" hollow nanofiber membrane-based glucose testing strips, Analyst, vol.139, pp.6467-6473, 2014.

C. Mateo, J. M. Palomo, G. Fernandez-lorente, J. M. Guisan, and R. Fernandez-lafuente, Improvement of enzyme activity, stability and selectivity via immobilization techniques, Enzyme Microb. Technol, vol.40, pp.1451-1463, 2007.

Y. Dai, W. Liu, E. Formo, Y. Sun, and Y. Xia, Ceramic nanofibers fabricated by electrospinning and their applications in catalysis, environmental science and energy technology, Polym. Adv. Technol, vol.22, pp.326-338, 2011.

A. Both-engel, M. Bechelany, O. Fontaine, A. Cherifi, D. Cornu et al., One-Pot Route to Gold Nanoparticles Embedded in Electrospun Carbon Fibers as an Efficient Catalyst Material for Hybrid Alkaline Glucose Biofuel Cells, vol.3, pp.629-637, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01678015

V. Gubala, L. F. Harris, A. J. Ricco, M. X. Tan, and D. E. Williams, Point of Care Diagnostics: Status and Future, Anal. Chem, vol.84, pp.487-515, 2012.

S. Schumacher, J. Nestler, T. Otto, M. Wegener, E. ;. Ehrentreich-forster et al., Highly-integrated lab-on-chip system for point-of-care multiparameter analysis, Lab Chip, vol.12, 2012.

R. Burger, L. Amato, and A. Boisen, Detection methods for centrifugal microfluidic platforms, Biosens. Bioelectron, vol.76, pp.54-67, 2016.

C. Dincer, R. Bruch, A. Kling, P. S. Dittrich, and G. A. Urban, Multiplexed Point-of-Care Testing-xPOCT, Trends Biotechnol, vol.35, pp.728-742, 2017.

A. K. Yetisen, M. S. Akram, and C. R. Lowe, Paper-based microfluidic point-of-care diagnostic devices, Lab Chip, vol.13, pp.2210-2251, 2013.

K. Mahato, A. Srivastava, and P. Chandra, Paper based diagnostics for personalized health care: Emerging technologies and commercial aspects, Biosens. Bioelectron, vol.96, pp.246-259, 2017.

J. Wang, Q. Kang, X. Lv, J. Song, N. Zhan et al., Simple Patterned Nanofiber Scaffolds and Its Enhanced Performance in Immunoassay, PLoS ONE, vol.8, 2013.

S. Sadir, M. P. Prabhakaran, D. H. Wicaksono, and S. Ramakrishna, Fiber based enzyme-linked immunosorbent assay for C-reactive protein, Sens. Actuators B Chem, vol.205, pp.50-60, 2014.

S. Hosseini, P. Azari, E. Farahmand, S. N. Gan, H. A. Rothan et al., Polymethacrylate coated electrospun PHB fibers: An exquisite outlook for fabrication of paper-based biosensors, Biosens. Bioelectron, vol.69, pp.257-264, 2015.

M. Mahmoudifard, S. Soudi, M. Soleimani, S. Hosseinzadeh, E. Esmaeili et al., Efficient protein immobilization on polyethersolfone electrospun nanofibrous membrane via covalent binding for biosensing applications, Mater. Sci. Eng. C, vol.58, pp.586-594, 2016.

S. Chantasirichot and K. Ishihara, Electrospun phospholipid polymer substrate for enhanced performance in immunoassay system, Biosens. Bioelectron, vol.38, pp.209-214, 2012.

J. S. Hersey, A. Meller, and M. W. Grinstaff, Functionalized Nanofiber Meshes Enhance Immunosorbent Assays, Anal. Chem, vol.87, pp.11863-11870, 2015.

Y. Lee, H. J. Lee, K. J. Son, and W. Koh, Fabrication of hydrogel-micropatterned nanofibers for highly sensitive microarray-based immunosensors having additional enzyme-based sensing capability, J. Mater. Chem, vol.21, pp.4476-4483, 2011.

A. M. Nicolini, C. F. Fronczek, and J. Yoon, Droplet-based immunoassay on a 'sticky' nanofibrous surface for multiplexed and dual detection of bacteria using smartphones, Biosen. Bioelectron, vol.67, pp.560-569, 2015.

S. Jin, M. Dai, B. Ye, and S. R. Nugen, Development of a capillary flow microfluidic Escherichia coli biosensor with on-chip reagent delivery using water-soluble nanofibers, Microsyst. Technol, vol.19, 2011.

D. Cho, L. Matlock-colangelo, C. Xiang, P. J. Asiello, A. J. Baeumner et al., Electrospun nanofibers for microfluidic analytical systems, Polymer, vol.52, pp.3413-3421, 2011.

W. S. Lee, V. Sunkara, J. Han, Y. Parka, and Y. K. Cho, Electrospun TiO 2 nanofiber integrated lab-on-a-disc for ultrasensitive protein detection from whole blood, Lab Chip, vol.15, pp.478-485, 2015.

M. A. Ali, K. Mondal, Y. Jiao, S. Oren, Z. Xu et al., Microfluidic Immuno-Biochip for Detection of Breast Cancer Biomarkers Using Hierarchical Composite of Porous Graphene and Titanium Dioxide Nanofibers, ACS Appl. Mater. Interfaces, vol.8, pp.20570-20582, 2016.

Y. Luo, S. Nartker, H. Miller, D. Hochhalter, M. Wiederoder et al., Surface functionalization of electrospun nanofibers for detecting E. coli O157:H7 and BVDV cells in a direct-charge transfer biosensor, Biosens. Bioelectron, vol.26, pp.1612-1617, 2010.

S. J. Reinholt, A. Sonnenfeldt, A. Naik, M. W. Frey, and A. J. Baeumner, Developing new materials for paper-based diagnostics using electrospun nanofibers, Anal. Bioanal. Chem, vol.406, pp.3297-3304, 2014.

R. Viter, I. Iatsunskyi, V. Fedorenko, S. Tumenas, Z. Balevicius et al., , vol.2

, Nanolaminate Coated Electrospun Nanofibers, J. Phys. Chem. C, vol.120, pp.5124-5132, 2016.